ASUS Z87 Deluxe Motherboard Review

Recently, we published a review on the ASUS Z87-A, which is a price conscious offering in ASUS’ mainstream line of Z87 motherboards. Today, we’re going to take a trip much higher up the ladder and have a look at the ASUS Z87 Deluxe. The Z87 Deluxe is positioned near the top of their mainstream motherboard line, and along with that comes a higher price point. Is the added cost worth it? Let’s take the ASUS Z87 Deluxe for a spin and find out!

Specifications and Features

As is typical with ASUS products, the specifications are a rather lengthy affair, but here they are none-the-less. The below specifications are provided by the ASUS website.

From the above specifications and the below “Special Features”, it becomes quite apparent what separates this motherboard from the lower-end mainstream boards. A larger 16 Phase CPU power design, Dual Intelligent Processors 4 with 4-Way Optimization, onboard Wi-Fi, dual LAN ports, and additional SATA connectivity are just a few of the higher-end features that come along with the higher price.

…And a couple slides to illustrate many of the high level features the Z87 Deluxe offers.

This slideshow requires JavaScript.

The two slides below depict some of the advantages the new Z87/Haswell platform brings to the table. When compared to previous Intel generations, we have additional native USB 3.0 and SATA 6 Gb/s connectivity, as well as more robust display options if the integrated graphics are utilized.

This slideshow requires JavaScript.

There are some unique features ASUS uses on their Z87 platform motherboards that they would like you to know about. The 5X Protection feature incorporates the power delivery, DRAM overcurrent protection, ESD protection, all 5K-Hour solid caps, and the stainless steel I/O blocks.

This slideshow requires JavaScript.

Anyone even remotely familiar with ASUS motherboards has heard of their Dual Intelligent Processors feature, which is now in its fourth iteration. The Dual Intelligent Processors 4 incorporates the TPU and EPU functions that make overclocking and energy savings as easy as a single click. For those of you who are uncomfortable overclocking a system manually, the TPU function can be used for an automatic overclock. If low power usage is your desire, the EPU feature can be used to automatically tune the system for maximum energy efficiency. TPU and EPU are just two of the items ASUS bundles under the 4-Way Optimization heading, the other two being Fan Expert 2 and the Digi+ VRM power management. We’ll have a closer look at these when we tour the UEFI BIOS and the bundled software.

This slideshow requires JavaScript.

ASUS makes a big deal of their Wi-Fi GO! feature, which can be used for internet sharing, multi-media management, data sharing, and remote control functions. Wi-Fi GO! incorporates several different utilities; here is a list of them with a brief description of what they do.

Remote Desktop – Use mobile devices to control the PC, or as a separate monitor when under clone and extended display modes.

DLNA Media Hub – Use mobile devices to control media content from one system to another within the same network.

File Transfer – Transfer files between PC and mobile devices within the same network.

Remote Keyboard & Mouse – Use a mobile device as a remote control for your PC.

Capture & Send – Capture a screen shot on your PC and use the mobile device as the storage media to save the file to.

Smart Sensor Control – Turn your mobile device into a virtual device that can be accessed from the desktop. Use the Gyroscope feature to turn the mobile device into a motion joystick under Windows 8.

Wi-Fi Engine – Use the onboard Wi-Fi as an access point for internet sharing.

This slideshow requires JavaScript.

Bringing the entire Wi-Fi GO! feature together is none other than the Wi-Fi GO! card, meaning the onboard Wi-Fi. The Wi-Fi GO! card features the latest 802.11ac data rates and is backward compatible with 802.11a/b/g/n protocols. In addition to providing Wi-Fi functionality, the Wi-Fi GO! card also provides Bluetooth connectivity.

Packaging and First Look

ASUS has adopted a black and gold theme for their mainstream Z87 motherboard boxes. The box front and back are loaded with icons and detailed information on many of the high level features. On the sides, we have the typical ASUS branding and the Dual Intelligent Processors 4 logo.

This slideshow requires JavaScript.

There is a flap that lifts up to expose a window, which shows the Z87 Deluxe resting inside. The inside of the flap has several detailed explanations of other available features.

This slideshow requires JavaScript.

Under the motherboard, you’ll find the accessories bundled with the Z87 Deluxe. Here is the list of what’s included:

With the board completely unpacked, we have some full board pictures to share! Unlike the Z87-A I reviewed earlier, this board is built on a black PCB. I really like the gold and black combination much better than the brown PCB used on other ASUS mainstream boards. We have a pretty sharp looking motherboard here, at least in my opinion.

This slideshow requires JavaScript.

Before we dive in for an up-close look at the different areas of the Z87 Deluxe, here are a few more images at board level.

This slideshow requires JavaScript.

Up Close and Under the Hood

Along the bottom of the motherboard, there are several enthusiast features implemented here. Onboard power and reset buttons are provided, along with a clear CMOS button and dual diagnostic LEDs. The bottom area also has USB 2.0 headers, FP audio connections, a 4-pin fan header, and the location for all your case wiring. The DirectKey button you see in the last picture below can be used to start the system and go directly into the UEFI BIOS without having to hit the delete key.

Z87 Delux Bottom Area

Z87 Delux Bottom Area

Z87 Delux Bottom Area

The right side of the motherboard is home to no less than ten SATA 6 Gb/s ports. The six yellow ports are native to the Z87 chipset, and the four dark brown ports are via ASMedia. Just below the SATA ports are the TPU and EPU switches. The TPU switch now features two automatic overclocking modes – multiplier only and BCLK/multiplier combined. The EPU switch, when enabled, can intelligently moderate power consumption based on system load. Also located on the right side of the board are the 24-pin ATX power connector, two more 4-pin fan headers, and the MemOK! button. The MemOK! button can be used to let the motherboard seek a stable setting for memory, which might otherwise be incompatible and keep the system from booting.

SATA Ports Top View

SATA Ports Side View

Z87 Deluxe Right Side

Z87 Deluxe Right Side

Along the top of the Z87 Deluxe, we find two CPU fan headers and the 8-pin CPU AUX 12V power connector. If you look closely at the yellow CPU fan header, you’ll notice there is a detection latch built into it. When a 4-pin PWM fan is connected here, the latch is activated letting the motherboard know you have a PWM capable fan installed. Installing a 3-pin CPU fan does not activate the detection switch, which in turn tells the motherboard you have a voltage controlled type fan installed.

Z87 Deluxe Top Side

Z87 Deluxe Top Side

The left side of the Z87 Deluxe is where we find the I/O area. The entire I/O area is covered with stainless steel blocks that have a corrosion resistant coating. Instead of stating the obvious over and over here, let’s let a couple visuals explain what each I/O area is for. Worth mentioning, however, are the dual LAN ports, both mini and regular DisplayPort connections, lots of USB connectivity, and the BIOS Flashback button. The BIOS Flashback function is pretty awesome actually as it allows the user to flash the BIOS from a USB stick with only the power supply hooked up to the motherboard. The ultimate in BIOS recovery!

The lower area of the left side is home to many of the ICs that make up the integrated peripherals, which we’ll have a closer look at next.

Stainless Steel I/O Blocks

I/O Connections (See Below)

Left Side – Bottom Area

Moving more towards the center of the Z87 Deluxe, we land at the PCIe expansion slots. Here we have four PCIe 2.0 x1 slots, two PCIe 3.0 x16 slots, and one PCIe 2.0 X16 slot. A single graphics card should be installed in the top PCIe 3.0 x16 slot and will run at x16 speed. If two cards are installed in a SLI or Crossfire setup, both cards will run at x8 speed. You can run Tri-Crossfire in an x8/x4/x4 configuration, but not Tri-SLI.

There are four DDR3 DIMM slots that support up to 32 Gb of un-buffered, non-ECC memory. All four of the DIMM slots use the one side locking tab method of retention. I can’t be completely confident in telling you the maximum supported memory speed because the user manual says up to DDR3 2800 (OC), but the website says up to DDR3 3000 (OC). Anyway, the top end will be one or the other, and the bottom end is DDR3 1333. In the second picture below, and just below the four DIMM slots, you can see the two dedicated memory power phases.

PCIe Expansion Slots

DDR3 DIMM Slots

The CPU socket area is a little tight in some spots, but careful choosing of air cooling solutions and memory module height can avoid any potential clearance problems. I can’t think of any CPU water blocks that would have an issue fitting here.

From this vantage point, you can see the heatpipe cooling design ASUS used to keep the stout 16 phase power delivery cool. Additionally, covering the Z87 PCH is another heatsink with an ASUS emblem affixed to the top.

CPU Socket Area

CPU Socket Area

Z87 PCH Heatsink

As long as we’re talking about heatsinks, let’s pull them off and have a look! All of the heatsinks attached to the motherboard are held down with screws, no cheesy plastic push pins here folks. The heatsinks covering the MOSFETs actually have a matching plate on the back side of the board for an added cooling effect. All of the thermal pads were found to be making excellent contact with the intended target points.

The lower portion of the two heatsinks (joined by a heatpipe) only covers the ASMeida ASM1480 PCIe switching ICs, and have no thermal interface material applied. I’ve never known that IC to get even remotely hot, so I don’t see that as an issue.

Z87 PCH Heatsink Removed

MOSFET/ASM1480 Heatpipe Heatsink

Single MOSFET Heatsink

Motherboard Back Cooling Plates

Z87 Deluxe Heatsink Kit

With all the heatsinks removed, we can get a good look at the 16 phase power delivery area. The high performance chokes and MOSFETs can be seen, along with some of the 5K-Hour solid caps used throughout the motherboard. The last picture below is of the Z87 PCH.

16 Phase Power Delivery

16 Phase Power Delivery

16 Phase Power Delivery

Z87 PCH

Taking a look at the ICs that provide many of the functions of the motherboard, we see that ASMedia has been used for a few of them. For additional USB 3.0 ports, the ASM1074 IC has been used, while the ASM1480 and ASM1061 ICs are used to provide PCIe switching and additional SATA 6 Gb/s ports respectively. In the past, I have seen ASMedia also used to handle the HDMI/DVI TMDS link functions, but in this case the Parade PS8201A handles these duties.

ASMedia ASM1480 PCIe Switching

ASMedia ASM1061 SATA Controller

ASMedia ASM1074 USB 3.0 Controller

Parade PS8201A TMDS

Realtek provides the onboard 8-channel audio codec via the ALC1150 chip. The ALC1150 codec is capable of high quality 112 dB SNR stereo playback output and 104 dB SNR recording input. It features Absolute Pitch 192 khz/24-bit True BD Lossless Sound. Realtek is also called upon to provide one of the two Gigabit LAN ports found on the Z87 Deluxe in the form of its RTL8111GR chip. The other LAN port is provided by Intel via their newest WGI217-V Gigabit controller.

Realtek ALC1150 Audio Codec

Realtek RTL8111GR Gigabit LAN

Intel WGI217-V Gigabit LAN

The PLX PEX8608 chip provides the additional PCIe lanes needed to bring you the additional onboard devices, such as the built in Wi-Fi and Bluetooth. For Super I/O functionality, the nuvoTon NCT6791D IC is used. As is common with a lot of ASUS motherboards, the Winbond 25Q64FVAIQ BIOS chip is present and accounted for.

PLX PEX8608 IC

nuvoTon NCT6791D Super I/O IC

Winbond BIOS chip

The Dual Intelligent Processors 4 chips and the VRM interface for CPU and memory can be found scattered about the motherboard. While the Digi+/EPU chip’s functionality has changed now that the VRM is part of the Haswell CPUs, it does still provide detailed control over the on chip VRM.

TPU Chip On Top of Board

2nd TPU Chip on Back of Board

DIGI+ Memory Power Control

DIGI+/EPU VRM Interface

Concluding our tour of the Z87 Deluxe is a feature that aids in easily identifying potential boot problems. There are four LEDs on the mother board labeled DRAM LED, VGA LED, CPU LED, and Boot Device LED. If your system fails to post because of a problem in one of these areas, the LED will stay illuminated giving you a clue where to begin your troubleshooting efforts.

DRAM LED

VGA LED

CPU LED

Boot Device LED

The UEFI BIOS

The ASUS UEFI continues to evolve into perhaps the most detailed and user friendly implementation on the market. For the Z87 motherboard series, ASUS has added many new features outlined in the slides below.

This slideshow requires JavaScript.

When first starting the system and entering the UEFI, you land at the EZ Mode screen. Pay no attention to the date and time shown as the images were captured immediately after entering the UEFI for the first time, and before I made any changes. EZ Mode has been expanded since the Z77 implementation and now includes XMP information and additional monitoring information. You can also choose boot priorities and system performance values from here.

Hitting F7 enables you to enter the UEFI’s advanced Mode, where you will find every tweaking option one could imagine. When entering Advanced Mode, you land at the Main tab where you are presented with basic system information and the time and date options. Choosing the Security sub menu allows you to set user and administrator passwords. Backing up one tab to the My Favorites area is where ASUS has implemented the ability to create a list of favorite UEFI areas for quick access. From any screen in the UEFI, you can press the Quick Note or Last Modified buttons located on the right side. Just as the names imply, you can type in notes for accessing later or see a list of what settings you have changed during your UEFI visit.

This slideshow requires JavaScript.

The Ai Tweaker section of the UEFI is where the overclockers among us will spend the vast majority of time. From a strictly overclocking standpoint, you’ll be hard pressed to find a more detailed or full featured set of tools anywhere. CPU overclocking, memory tweaking, and total control of power delivery are what you will find here. There is a plethora of voltage control options that offer finite control to dial in just the right amount of voltage. The memory timings page has Primary, Secondary, and Third settings available for those who need that much detail. Remember me mentioning the user manual and web site differing on the memory speed support? Well, let’s throw a third value in the equation as the memory frequency option in the UEFI goes all the way up to 3200 MHz.

The DIGI+ power control options extend to both the CPU and memory power delivery. Whether you want to optimize the system for better overclocking or power efficiency, it’s easy to do from here and in the CPU power management sub menu.

This slideshow requires JavaScript.

The Advanced tab is where you will find eight sub menus related to system setup and onboard device parameters. I’m sure most of you are familiar with these settings, so I’ll move right along to the slide show showing the sub menu options.

This slideshow requires JavaScript.

The monitor tab shows real-time voltage and fan speed readings, as well as houses the fan control options. There are built in fan profiles you can use, or set up your own parameters.

This slideshow requires JavaScript.

Under the Boot tab, you find everything needed to control system start up behavior.

This slideshow requires JavaScript.

The Tools tab is where you can access the EZ Flash 2 utility, which is widely regarded as the best method of updating the UEFI firmware. The O.C. Profile sub menu is where you can save and load up to eight profiles. You also have the option to save and load profiles to and from a USB device, which in a sense makes the amount of profiles you can save limitless. The SPD Information sub menu lists the SPD and XMP details related to the installed memory modules.

The last area of the UEFI is the Save tab. I doubt any explanation is needed here!

This slideshow requires JavaScript.

Included Software

Along with the new Z87 Haswell platform motherboards, ASUS is offering a new and updated AI Suite software package. Now at version three, we have a new looking GUI and a couple new additions to the utility. The most impressive new feature in AI Suite 3 is the 4-Way Optimization function. This gives the user the ability to manipulate VRM power profiles, CPU and memory overclocking, cooling performance, and power parameters.

When first opening AI Suite 3, you land at a tiled main screen that provides links to all the different utilities. Along the bottom of every screen, you get live monitoring information for frequencies, voltages, temperatures, and fan speeds. By choosing the Dual Intelligent Processor 4 utility, you’ll be taken to a screen with five areas to explore. For automatic system optimization, 4-Way Optimization is where you want to go. The TPU tab has the CPU frequency and voltage controls and the BCLK strap options. The EPU tab is where you go to fine tune power efficiency. Your choices here are Auto, High Performance, Max Power Saving, or Away Mode. The DIGI+ Power Control tab has the options for LLC, CPU power thermal control, CPU voltage frequencies, and similar power controls for the memory too. The Fan Xpert 2 tab is where you find everything you need to optimize any fan connected to the motherboard fan headers. Fan Xpert 2 is the most detailed and full featured software of its kind, it truly is a remarkable piece of software. The second slide show below has several slides provided by ASUS, which explain many of the things you can do with Fan Xpert 2.

This slideshow requires JavaScript.

This slideshow requires JavaScript.

The rest of AI Suite 3 is comprised of some useful utilities like USB 3.0 Boost, two different mobile device charging options, Network iControl, and the Wi-Fi GO! programs we talked about earlier. Most of these are self explanatory by viewing the below slide show.

For a 24/7 stable overclock, I settled on 4.6 GHz for the CPU with the memory at 2400 MHz. At these settings, temperatures were manageable; and it easily passed a 15 minute run of the AIDA64 Stability Test.

4.6 GHz/2400 MHz Stability

In the stock benchmark results below, we’ll use the ASUS M6E, Intel DZ87KLT-75K, and the ASUS Z87-A for comparisons. The caveat being the three ASUS boards were using the the multi-core enhancement feature (meaning the core speed was locked down at 3.9 GHz), while the Intel board was at true stock and using the Turbo-Core feature. This doesn’t impact single thread benchmarks like SuperPI much at all, but multi-threaded benchmarks will tend to favor the ASUS boards. Additionally, all four boards have the memory set to DDR3 2600. I went ahead and added the 24/7 stable overclock results mentioned above to the charts as well. This should give you an idea of the performance gains to be had if you overclock the system.

Typically, there isn’t a whole lot of difference in benchmark results when comparing motherboards; but if there is a deficiency with one of them, it will make itself known. You’ll see below that the Z87-A, M6E, and the Z87 Deluxe are all within a whisker of each other on the stock tests. That should come as no surprise being that they are all running the same CPU and memory speeds. I’ll step aside and let the below graphs speak for themselves in an effort to move things along here!

Rendering and Compression Tests

Cinebench R10 Results

Cinebench R11.5 Results

PoV Ray 3.7 Results

7zip Results

x264 Pass 1 Results

x264 Pass 2 Results

2D Benchmark Testing

SuperPi 1M Results

SuperPi 32M Results

wPrime 32M Results

wPrime 1024M results

Results are as expected with some very nice gains when overclocked. No issues found, no issues noted!

Pushing the Limits

I was able to get the CPU stable at 4.7 GHz with the memory set to 1866 MHz. However, 4.8 GHz proved to be a tough road. By dropping the memory speed to 1600 MHz, I was able to complete a quick run of SuperPI 1M and wPrime 32m. I wouldn’t call the 4.8 GHz overclock stable by any means, but given that fact I was never able to even get to the desktop at 4.8 GHz during the Z87-A review, it is an improvement. The Z87-A topped out at 4.7 GHz, but the stability was shaky at best. Here we have a stable 4.7 GHz overclock and the ability to get to the desktop and run a couple quick benchmarks at 4.8 GHz.

4.7/1866 Stability Test

At the Desktop – 4.8 GHz

wPrime 32M at 4.8 GHz

SuperPI 1M at 4.8 GHz

All and all, I’d consider the overclocking to be a success on the Z87 Deluxe, especially for a retail CPU! I can say with complete confidence that the CPU is the limiting factor when it comes to overclocking this system, definitely not the motherboard!

Conclusion

The Z87 Deluxe certainly doesn’t lack for features and overclocking capability, that’s for sure. Currently priced at $279.99 at Newegg, it’s right at or slightly less than competitor offerings. Our testing results show stock performance right where it should be and excellent performance gains were had when overclocked. The built in Wi-Fi GO! card, AI Suite III, and many unique ASUS features add additional value to the Z87 Deluxe. With 10 SATA 6.0 Gb/s ports, lots of USB connectivity, and Bluetooth support, you have plenty of connectivity options. In fact, the Z87 Deluxe is even compatible with the ASUS NFC Express if you want to add NFC to the list of connectivity.

In the end, ASUS has a full featured, great overclocking motherboard here. If the Z87 Deluxe has the features you’ve been looking for, then it’s definitely worth considering as the basis for your next Haswell platform build.

Related Stories

Small form factor (SFF) builds have been popping up more and more frequently over the past few hardware generations, and ASUS has definitely taken note of that. ASUS has a couple ITX boards in their Z87 lineup that could fit the bill for your next SFF build. We'll be taking a look at the Z87I-Deluxe to find out how well it fits in the SFF scene and if it can compete with larger form factor boards. Read More

With the release of the new Haswell line of CPUs, motherboard manufacturers are rolling out motherboards to support the new socket 1150 platform. Overclockers' very own hokiealumnus recently published a review on ASUS' top dog for this platform, the Maximus VI Extreme. Today however, we'll tone it down a bit and review one of ASUS' Z87 entry-level mainstream motherboards - the Z87-A. If you're looking to get into the Haswell game at an affordable price, does ASUS have something worth your consideration in the Z87-A? Let's find out! Read More

ASUS is usually one of the first manufacturers to market when a new platform is released, and that continues to be the case with the Haswell-E/X99 release. At first look, the ASUS X99 Deluxe looks about as packed with features as I've ever seen on a motherboard. In fact, ASUS claims this motherboard is their most feature-rich enthusiast offering to date. It's time to have a look at the X99 Deluxe and see what ASUS has done with their initial Haswell-E/X99 offering, so let's get after it! Read More

With the release of Intel's Skylake "K" series CPUs, today also brings the release of Z170 chipset motherboards from various manufacturers. One such release is the ASUS Z170-Deluxe, which we'll take a good look at today. Sitting at or near the top of the ASUS Channel series motherboards, the Z170-Deluxe is packed with a ton of unique features that take full advantage of this new platform. Read More

the multi to 46 and add some voltage. I would go up on the multi slowly and test with a stress test to see if it is stable at each point. if it boots to windows at a given multi/voltage combe- then test if it fails the test- add more voltage. work your way up to 46x multi or wherever you decide to stop.

I would also use coretemp or realtemp and monitor temps while doing the stress tests to make sure you are safe there as well

You have to keep other settings on auto so the board uses what has been optimized for 200. Fully default the board and then set the AiTuner to manual and define 200 BCLK. Leave all else on auto. Disregard if that is what you tried, not every CPU will do it. :)